CN110847846B

CN110847846B - Packer for oil field exploitation

Info

Publication number: CN110847846B
Application number: CN202010039349.1A
Authority: CN
Inventors: 李江涛; 任愈; 任岩岩; 杨鹏飞
Original assignee: Shandong Bosaite Petroleum Technology Co ltd
Current assignee: Shandong Bosaite Petroleum Technology Co ltd
Priority date: 2020-01-15
Filing date: 2020-01-15
Publication date: 2020-04-24
Anticipated expiration: 2040-01-15
Also published as: CN110847846A

Abstract

The invention relates to a packer for oilfield exploitation, which adopts the technical scheme that the packer comprises an upper joint, an opening shear pin, an outer cylinder, a central pipe, a baffle ring, a closing shear pin, a locking ring, a closing sleeve, a fixed ball seat, a steel ball, a floating ball seat, a spring, a support ring and a lower joint, wherein the lower end of the upper joint is movably connected with the upper end of a middle joint, the upper end of a differential pressure sliding sleeve is arranged in the lower end of the upper joint, the lower end of the differential pressure sliding sleeve penetrates through the middle joint and a liquid inlet joint, the differential pressure sliding sleeve, the middle joint and the liquid inlet joint form sealing through sealing rings and are communicated to: the differential pressure sliding sleeve is opened under the action of differential pressure through the pressing of the oil pipe, the packer rubber sleeve and the packing sleeve are set, and the flushing fluid cannot enter the stratum during flushing operation before pump inspection operation, so that the stratum is protected from being polluted, the construction operation is simplified, the cost is saved, and the construction period is shortened.

Description

Packer for oil field exploitation

Technical Field

The invention relates to a packer for oilfield exploitation, in particular to a packer for oilfield exploitation.

Background

Packers are downhole tools that have resilient sealing elements and thereby seal the annulus between the various sizes of tubing string and the wellbore and between the tubing strings and isolate the producing zone to control production fluids and protect the casing. In addition, in the process of oil well exploitation, pump inspection operation is one of the most frequent operations, but before pump inspection, well washing and killing operation needs to be performed, at present, oil pipes are mostly used in field for direct production with pumps, and in the process of well washing, well washing liquid enters a stratum, so that pollution to the stratum is caused, and the yield of an oil well is influenced.

Disclosure of Invention

The invention aims to provide the packer for oil field exploitation, which realizes pollution-free operation, protects the stratum from being polluted by well-flushing fluid, simplifies construction operation, shortens construction period and saves operation cost.

The invention provides a packer for oil field exploitation, which has the technical scheme that: comprises an upper joint (1), a shearing pin (3), a pressure difference sliding sleeve (4), a middle joint (6), a liquid inlet joint (8), a deblocking joint (11), a needle valve (14), a valve seat (15), a fixing pin (16), a fixing baffle (17), an outer cylinder (18), a connecting sleeve (19), an upper rubber cylinder seat (21), a rubber cylinder (22), a central pipe (23), a lower rubber cylinder seat (24), a lower joint (27) and a reset spring (28), wherein the upper end of the upper joint (1) is provided with a pipe thread, the lower end of the upper joint (1) is movably connected with the upper end of the middle joint (6), the upper end of the pressure difference sliding sleeve (4) is arranged in the lower end of the upper joint (1), the lower end of the pressure difference sliding sleeve (4) penetrates through the middle joint (6) and the liquid inlet joint (8), and the pressure difference sliding sleeve (4), the middle joint (6, a first liquid inlet channel (111) is arranged in the middle of the pressure difference sliding sleeve (4), the lower end of an intermediate joint (6) is in threaded connection with the upper end of a liquid inlet joint (8), a second liquid inlet channel (222) is arranged between the intermediate joint (6) and the liquid inlet joint (8), a third liquid inlet channel (333) is arranged in the liquid inlet joint (8), the outer part of the lower end of the liquid inlet joint (8) is in sealed connection with a deblocking joint (11), the inner part of the lower end of the liquid inlet joint (8) is movably connected with the upper end of a valve seat (15), a fourth liquid inlet channel (444) is arranged in the deblocking joint (11), the lower end of the deblocking joint (11) is movably connected with the upper end of an outer cylinder (18), the valve seat (15) is arranged in the outer cylinder (18), a fifth liquid inlet channel (555) is processed in the valve seat (15), the fifth liquid inlet channel (555) is of a stepped hole structure, the lower end of the connecting sleeve (19) is in threaded connection with the upper end of the central tube (23), the lower end of the outer tube (18) is in threaded connection with the upper end of the upper rubber tube base (21), a sixth liquid inlet channel (666) is arranged between the outer tube (18) and the connecting sleeve (19), the lower end of the upper rubber tube base (21) is in threaded connection with the rubber tube (22) to form end face seal, the lower end of the rubber tube (22) is in threaded connection with the lower rubber tube base (24) to form end face seal, the lower end of the lower rubber tube base (24) is in sealed connection with the outer portion of the upper end of the lower joint (27) through a sealing ring (25), a seventh liquid inlet channel (777) is arranged between the rubber tube (22) and the central tube (23), the lower end of the central tube (23) is in threaded connection with the inner portion of the upper.

Preferably, the stepped hole transition of the fifth liquid inlet channel (555) is a conical smooth sealing surface (88).

Preferably, the needle valve (14) and the return spring (28) are arranged in a fifth liquid inlet channel (555) of the valve seat (15) and limited by a fixed baffle plate (17), the fixed baffle plate (17) is connected with the valve seat (15) through a fixed pin (16), and the needle valve (14) and a conical smooth sealing surface (88) of the valve seat (15) form sealing.

Preferably, the upper end of the differential pressure sliding sleeve (4) is provided with a convex step which is matched with the upper end of the intermediate joint (6) when the differential pressure sliding sleeve (4) moves downwards.

Preferably, an inner bulge structure is arranged on the lower side of the inner cavity of the middle joint (6) and is matched with the lower end of the differential pressure sliding sleeve (4) to play a limiting role.

Preferably, one or more than one first liquid inlet channel (111) in the horizontal direction is arranged in the middle of the pressure difference sliding sleeve (4), and after the pressure difference sliding sleeve (4) moves downwards, the first liquid inlet channel (111) is communicated with the longitudinal second liquid inlet channel (222).

The invention provides a using method of a packer for oil field exploitation, which adopts the technical scheme that: the method comprises the following steps:

firstly, the packer is set in a well, the packer for oil field exploitation is connected to the lower part of an oil pumping pipe column and is put into a designed position, then an oil well pump rod and the oil pumping rod column are put into the well, a well mouth is fixed, 5-20 MPa is pumped from an oil pipe, a downward thrust proportional to the oil pressure is generated on a differential pressure sliding sleeve (4) under the action of the oil pressure, the thrust acts on a shearing pin (3), when the force exceeds the shearing strength of the shearing pin (3), the shearing pin (3) is sheared, the differential pressure sliding sleeve (4) moves downwards, a first liquid inlet channel (111) in the middle of the differential pressure sliding sleeve (4) corresponds to a second liquid inlet channel (222), high-pressure liquid enters a second liquid inlet channel (222) through the first liquid inlet channel (111), then enters a third liquid inlet channel (333) in a liquid inlet joint (8) and then enters a fourth liquid inlet channel (444), and the high-pressure liquid reaches a conical smooth sealing surface (88) of the fifth liquid inlet channel (555), downward thrust is generated on the needle valve (14), the needle valve (14) is pushed to move downwards and compress the return spring (28), the fifth liquid inlet channel (555) is opened, high-pressure liquid enters the sixth liquid inlet channel (666) and finally enters a seventh liquid inlet channel (777) between the rubber sleeve (22) and the central pipe (23), and under the action of the internal high-pressure liquid, the rubber sleeve (22) of the packer outwards expands and is sealed on the inner wall of the sleeve to realize packing;

after the oil pipe is depressurized, under the action of a return spring (28), the needle valve (14) returns to form sealing with a conical smooth sealing surface (88) of a fifth liquid inlet channel (555) in the valve seat (15), the pressure in the packer rubber cylinder (22) is kept not to be depressurized, and the packer rubber cylinder (22) is always in a setting state;

secondly, performing well flushing operation, continuously pressurizing to 20-30 MPa, opening a differential pressure sliding sleeve (4), establishing a well flushing channel, and then performing well flushing operation;

thirdly, the device is deblocked, when the well is washed, the tubing string is lifted, because the packer rubber cylinder (22) is in a setting state, the upper joint (1) drives the middle joint (6), the differential pressure sliding sleeve (4), the liquid inlet joint (8), the central pipe (23) and the lower joint (27) to move upwards, the deblocked joint (11), the outer cylinder (18), the upper rubber cylinder seat (21), the rubber cylinder (22) and the lower rubber cylinder seat (24) are in a relatively downward state, the lower end of the deblocked joint (11) is contacted with the upper end of the needle valve (14), and the needle valve (14) is pushed to move downwards and compress the return spring (28), the needle valve (14) and a conical smooth sealing surface (88) of a fifth liquid inlet channel (555) in the valve seat (15) are unsealed, hydraulic pressure in the rubber sleeve (22) is released, the rubber sleeve (22) automatically retracts under the action of self-retraction force to realize unsealing, and then the column is lifted upwards to lift the whole column.

The invention has the beneficial effects that: the upper end of the invention is connected with an oil pipe, the lower end is connected with an oil pump, a differential pressure sliding sleeve is opened under the action of differential pressure through the pressing of the oil pipe, a packer rubber sleeve and a packing sleeve are set, and when well washing operation is carried out before pump inspection operation, well washing liquid cannot enter a stratum, so that the stratum is protected from being polluted, the construction operation is simplified, the cost is saved, and the construction period is shortened.

Drawings

FIG. 1 is a schematic view of an overall structure of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a cross-sectional view B-B of FIG. 1;

FIG. 4 is an enlarged view of portion C of FIG. 2;

FIG. 5 is an enlarged view of portion D of FIG. 1;

in the upper diagram: the sealing device comprises an upper joint (1), a sealing ring (2), a sealing ring (5), a sealing ring (7), a sealing ring (9), a sealing ring (10), a sealing ring (12), a sealing ring (13), a sealing ring (20), a sealing ring (25), a sealing ring (26), a shearing pin (3), a differential pressure sliding sleeve (4), a middle joint (6), a liquid inlet joint (8), a deblocking joint (11), a needle valve (14), a valve seat (15), a fixing pin (16), a fixing baffle (17), an outer cylinder (18), a connecting sleeve (19), an upper rubber cylinder seat (21), a rubber cylinder (22), a central tube (23), a lower rubber cylinder seat (24), a lower joint (27), a return spring (28) and a conical smooth sealing surface (;

the liquid level control device comprises a first liquid inlet channel (111), a second liquid inlet channel (222), a third liquid inlet channel (333), a fourth liquid inlet channel (444), a fifth liquid inlet channel (555), a sixth liquid inlet channel (666) and a seventh liquid inlet channel (777).

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Referring to the attached drawings 1-4, the packer for oilfield exploitation, which is provided by the invention, comprises an upper connector 1, a shearing pin 3, a differential pressure sliding sleeve 4, a middle connector 6, a liquid inlet connector 8, a deblocking connector 11, a needle valve 14, a valve seat 15, a fixing pin 16, a fixing baffle 17, an outer cylinder 18, a connecting sleeve 19, an upper cylinder seat 21, a rubber cylinder 22, a central pipe 23, a lower rubber cylinder seat 24, a lower connector 27 and a return spring 28, wherein the upper end of the upper connector 1 is provided with a pipe thread, the lower end of the upper connector 1 is movably connected with the upper end of the middle connector 6, the upper end of the differential pressure sliding sleeve 4 is arranged in the lower end of the upper connector 1, the lower end of the differential pressure sliding sleeve 4 penetrates through the middle connector 6 and the liquid inlet connector 8, the differential pressure sliding sleeve 4, the middle connector 6 and the liquid inlet connector 8 form a seal through a seal ring 7, the middle position, a second liquid inlet channel 222 is arranged between the middle joint 6 and the liquid inlet joint 8, a third liquid inlet channel 333 is arranged inside the liquid inlet joint 8, the outer part of the lower end of the liquid inlet joint 8 is hermetically connected with the deblocking joint 11, the inner part of the lower end of the liquid inlet joint 8 is movably connected with the upper end of the valve seat 15, a fourth liquid inlet channel 444 is arranged inside the deblocking joint 11, the lower end of the deblocking joint 11 is movably connected with the upper end of the outer cylinder 18, the valve seat 15 is arranged inside the outer cylinder 18, a fifth liquid inlet channel 555 is processed inside the valve seat 15, the fifth liquid inlet channel 555 is of a step hole structure, the lower end of the valve seat 15 is in threaded connection with the upper end of the connecting sleeve 19, the lower end of the connecting sleeve 19 is in threaded connection with the upper end of the central tube 23, the lower end of the outer cylinder 18 is in threaded connection with the upper end of the upper cylinder seat 21, a sixth liquid inlet channel 666 is arranged between the outer cylinder, the lower end of the lower rubber cylinder seat 24 and the outer part of the upper end of the lower joint 27 form a seal through a seal ring 25, a seventh liquid inlet channel 777 is arranged between the rubber cylinder 22 and the central pipe 23, the lower end of the central pipe 23 is in threaded connection with the inner part of the upper end of the lower joint 27 and forms a seal through a seal ring 26, and the lower end of the lower joint 27 is provided with pipe threads.

Wherein, the step hole transition of the fifth liquid inlet channel 555 is a conical smooth sealing surface 88.

The needle valve 14 and the return spring 28 are arranged in the fifth liquid inlet channel 555 of the valve seat 15 and limited by the fixed baffle 17, the fixed baffle 17 is connected with the valve seat 15 through the fixed pin 16, and the needle valve 14 and the conical smooth sealing surface 88 of the valve seat 15 form sealing.

Preferably, the upper end of the differential pressure sliding sleeve 4 is provided with a convex step, and when the differential pressure sliding sleeve 4 moves downwards, the convex step is matched with the upper end of the intermediate joint 6.

Preferably, an inner convex structure is arranged on the lower side of the inner cavity of the middle joint 6 and is matched with the lower end of the differential pressure sliding sleeve 4 to play a limiting role.

Preferably, one or more than one first liquid inlet channel 111 in the horizontal direction is arranged at the middle position of the differential pressure sliding sleeve 4, and after the differential pressure sliding sleeve 4 moves downwards, the first liquid inlet channel 111 is communicated with the longitudinal second liquid inlet channel 222.

The invention provides a using method of a packer for oil field exploitation, which comprises the following steps:

firstly, the packer is set in a well, the packer for oil field exploitation is connected to the lower part of an oil pumping pipe column and is put into a designed position, then an oil well pump rod and the oil pumping rod column are put into the well, a well mouth is fixed, 5-20 MPa is pumped from an oil pipe, a downward thrust proportional to the oil pressure is generated on a pressure difference sliding sleeve 4 under the action of the oil pressure, the thrust acts on a shearing pin 3, when the force exceeds the shearing strength of the shearing pin 3, the shearing pin 3 is sheared, the pressure difference sliding sleeve 4 moves downwards, a first liquid inlet channel 111 in the middle of the pressure difference sliding sleeve 4 corresponds to a second liquid inlet channel 222, high-pressure liquid enters a second liquid inlet channel 222 through the first liquid inlet channel 111, then enters a third liquid inlet channel 333 in a liquid inlet joint 8 and then enters a fourth liquid inlet channel 444, the high-pressure liquid reaches a conical smooth sealing surface 88 of the fifth liquid inlet channel 555 to generate the downward thrust for a needle valve 14, pushing the needle valve 14 to move downwards and compressing the return spring 28, opening the fifth liquid inlet channel 555, enabling high-pressure liquid to enter the sixth liquid inlet channel 666 and finally enter a seventh liquid inlet channel 777 between the rubber sleeve 22 and the central pipe 23, and under the action of the internal high-pressure liquid, expanding and sealing the rubber sleeve 22 of the packer to the inner wall of the sleeve outwards to realize packing;

after the oil pipe is depressurized, under the action of the return spring 28, the needle valve 14 is returned to form a seal with a tapered smooth sealing surface 88 of a fifth liquid inlet channel 555 in the valve seat 15, so that the pressure in the packer rubber cylinder 22 is kept not to be depressurized, and the packer rubber cylinder 22 is always in a setting state;

secondly, performing well flushing operation, continuously pressurizing to 20-30 MPa, opening the differential pressure sliding sleeve 4, establishing a well flushing channel, and then performing well flushing operation;

thirdly, the device is unsealed, after the well is washed, the oil string is lifted, because the packer rubber sleeve 22 is in a setting state, the upper joint 1 drives the middle joint 6, the differential pressure sliding sleeve 4, the liquid inlet joint 8, the central pipe 23 and the lower joint 27 to move upwards, the unsealing joint 11, the outer cylinder 18, the upper rubber sleeve seat 21, the rubber sleeve 22 and the lower rubber sleeve seat 24 are in a relatively downward state, the lower end of the unsealing joint 11 is in contact with the upper end of the needle valve 14 and pushes the needle valve 14 to move downwards and compress the return spring 28, the needle valve 14 is unsealed with the conical smooth sealing surface 88 of the fifth liquid inlet channel 555 in the valve seat 15, hydraulic pressure in the rubber sleeve 22 is released, the rubber sleeve 22 retracts automatically under the action of the retraction force, unsealing is realized, and then the oil string is.

Wherein, the oil field is driven by a packer through an oil pipe under the action of differential pressure, the shearing pin 3 is cut off, and the differential pressure sliding sleeve 4 is opened; 8 first liquid inlet channels 111 are arranged in the middle of the packer differential pressure sliding sleeve 4 for oilfield exploitation, and the width of each first liquid inlet channel 111 is 0.2 mm; the oil field is opened and is adopted the packer through lifting upper portion oil pipe, deblocking joint 11 and needle valve 14 upper end contact, removes the sealed of needle valve 14 and disk seat 15, and packing element 22 retracts by oneself under self-action, realizes the deblocking.

Compared with the prior art, the invention has the following advantages.

1. The process is simple, the construction is convenient, the construction period is shortened, and the construction cost is reduced;

2. the stratum can be protected, and the stratum is prevented from being polluted by the flushing fluid;

3. the hydraulic pressure difference is opened, and the opening is controllable.

The above description is only a few of the preferred embodiments of the present invention, and any person skilled in the art may modify the above-described embodiments or modify them into equivalent ones. Therefore, any simple modifications or equivalent substitutions made in accordance with the technical solution of the present invention are within the scope of the claims of the present invention.

Claims

1. The utility model provides an oil field exploitation uses packer which characterized by: comprises an upper joint (1), a shearing pin (3), a pressure difference sliding sleeve (4), a middle joint (6), a liquid inlet joint (8), a deblocking joint (11), a needle valve (14), a valve seat (15), a fixing pin (16), a fixing baffle (17), an outer cylinder (18), a connecting sleeve (19), an upper rubber cylinder seat (21), a rubber cylinder (22), a central pipe (23), a lower rubber cylinder seat (24), a lower joint (27) and a reset spring (28), wherein the upper end of the upper joint (1) is provided with a pipe thread, the lower end of the upper joint (1) is movably connected with the upper end of the middle joint (6), the upper end of the pressure difference sliding sleeve (4) is arranged in the lower end of the upper joint (1), the lower end of the pressure difference sliding sleeve (4) penetrates through the middle joint (6) and the liquid inlet joint (8), and the pressure difference sliding sleeve (4), the middle joint (6, a first liquid inlet channel (111) is arranged in the middle of the pressure difference sliding sleeve (4), the lower end of the intermediate joint (6) is in threaded connection with the upper end of the liquid inlet joint (8), a second liquid inlet channel (222) is arranged between the intermediate joint (6) and the liquid inlet joint (8), and after the pressure difference sliding sleeve (4) moves downwards, the first liquid inlet channel (111) is communicated with the longitudinal second liquid inlet channel (222), a third liquid inlet channel (333) is arranged inside the liquid inlet joint (8), the outside of the lower end of the liquid inlet joint (8) is in sealed connection with the deblocking joint (11), the inside of the lower end of the liquid inlet joint (8) is movably connected with the upper end of the valve seat (15), a fourth liquid inlet channel (444) is arranged inside the deblocking joint (11), the lower end of the deblocking joint (11) is movably connected with the upper end of the outer barrel (18), the valve seat (15) is arranged inside the outer barrel (18), and a, the fifth liquid inlet channel (555) is of a stepped hole structure, the lower end of the valve seat (15) is in threaded connection with the upper end of the connecting sleeve (19), the lower end of the connecting sleeve (19) is in threaded connection with the upper end of the central tube (23), the lower end of the outer tube (18) is in threaded connection with the upper end of the upper rubber tube seat (21), a sixth liquid inlet channel (666) is arranged between the outer tube (18) and the connecting sleeve (19), the lower end of the upper rubber tube seat (21) is in threaded connection with the rubber tube (22) to form end face seal, the lower end of the rubber tube (22) is in threaded connection with the lower rubber tube seat (24) to form end face seal, the lower end of the lower rubber tube seat (24) and the upper end of the lower joint (27) are sealed through a sealing ring (25), a seventh liquid inlet channel (777) is arranged between the rubber tube (22) and the central tube (23), the lower end of, the lower end of the lower joint (27) is provided with pipe threads;

the transition position of the stepped hole of the fifth liquid inlet channel (555) is a conical smooth sealing surface (88);

the needle valve (14) and the return spring (28) are arranged in a fifth liquid inlet channel (555) of the valve seat (15) and limited by a fixed baffle plate (17), the fixed baffle plate (17) is connected with the valve seat (15) through a fixed pin (16), and the needle valve (14) and a conical smooth sealing surface (88) of the valve seat (15) form sealing;

the upper end of the differential pressure sliding sleeve (4) is provided with a convex step which is matched with the upper end of the intermediate joint (6) when the differential pressure sliding sleeve (4) moves downwards.

2. The packer for oil field exploitation according to claim 1, wherein: an inner protruding structure is arranged on the lower side of the inner cavity of the middle joint (6) and is matched with the lower end of the differential pressure sliding sleeve (4) to play a limiting role.

3. The packer for oil field exploitation according to claim 1, wherein: more than one first liquid inlet channel (111) in the horizontal direction is arranged in the middle of the pressure difference sliding sleeve (4).